FR2914122A1 - Electronic system e.g. alternating current-direct current energy converter, protecting device for aircraft, has detection unit e.g. optical sensor, detecting light generated by electric arc, where arc is generated by electronic system - Google Patents

Abstract

The device (30) has a detection unit such as optical sensor (4), e.g. phototransistor, for detecting light generated by an electric arc, where the arc is generated by an electronic system (2). An activation unit (15) activates a safety system e.g. switch, associated to the system, where the activation unit cooperates with the detection unit. A testing unit e.g. LED (17), tests the integrity of the detection unit, and the sensor is placed inside a metallic case (1) containing the electronic system. An independent claim is also included for a method for protecting an electronic system against electric arc.

Description

The present invention relates to a device for protecting a system

  electronic against electric arcs. It also relates to a method relating to the protection of electronic systems against arcing associated with such a device. Aircraft are incorporating more and more electric motors and / or electric actuators, calling for their control to static power converters. In addition, the introduction of variable frequency electrical networks and the use of multiple networks using voltages, either continuous or alternative, require the implementation of high power converters 15 to achieve, for example, energy transfers. between network or network stabilization. These converters have the particularity of using high DC voltages that can generate arcing during a malfunction or when a fault or fault occurs. It is difficult to remove these arcs when the DC voltage is present. These electric arcs can have pernicious consequences, such as, for example, the temperature rise of the housings in which these converters are integrated, or the drilling of these boxes by these electric arcs, thus being able to propagate outside the housings. In addition, these housings may be located in areas in which there may be a presence of fuel vapors, or even these converters can be cooled by the fuel used by the aircraft. Thus, excessive temperature rise or drilling of a converter housing by an electric arc may involve a risk of fire or explosion of the aircraft.

  Electric arc protection devices based on the detection of the temperature rise of the converter housing are known. These devices cut or give the command to cut off the supply voltage in order to make the electric arc disappear.

  The detection of the presence of the electric arc is achieved by the installation of thermal detectors such as thermo fuses and / or temperature sensors. These sensing devices work properly when the rise in temperature occurs slowly or gradually.

  However, when the temperature rise occurs quickly (produced by a strong electric arc), these detection devices react only late and the protection does not work systematically. One solution to this problem is to strengthen the converter housing, by placing inside the housing a layer of temperature-resistant material, to protect the housing until the disappearance of the arc. This solution is therefore expensive and makes the case heavy and bulky. The present invention aims to solve the aforementioned drawbacks and to propose an arcing protection device and a method associated with this device, for detecting the electric arc by means of the detection of the light generated by the arc. and not through a consequence, such as raising the temperature. For this purpose, the invention aims in a first aspect a device for protecting an electronic system against arcing. According to the invention, the device comprises means for detecting a light generated by an electric arc, the electric arc being generated by the electronic system. Thus, the detection of the electric arc is systematic, since the electric arcs are very bright. In addition, the detection of light automatically detects the electric arc from the beginning of its formation.

  Thus, it is possible to improve the protection of the electronic system as soon as the appearance of the electric arc is detected from its beginning, even before a rise in temperature occurs near the electronic system.

  According to a preferred feature of the invention, the device comprises means for activating a security system associated with the electronic system, adapted to cooperate with the detection means. Thus, it is possible to activate a security system as soon as the light generated by an electric arc is detected.

  Preferably, the protection device further comprises means for testing the integrity of the detection means. Thus, it is possible to verify the proper functioning of the means for detecting the light generated by the electric arc. According to a preferred characteristic of the invention, the detection means comprise a single optoelectronic sensor. Thus, optoelectronic sensors being fast response components, the response time of the protection device is very low. According to another preferred feature of the invention, the detection means comprise a plurality of optoelectronic sensors distributed inside a housing containing the electronic system. Thus, the protection of the electronic system is all the better because of the redundancy of the optoelectronic components. In addition, the response time of the device is shorter as soon as the optoelectronic components are distributed inside the housing, making it possible to quickly detect the appearance of light at any point of the housing. Preferably, the test means comprise a light source located near the detection means. Thus, when the light source is activated, the optoelectronic sensor reacts with the light emitted by the light source and it is thus possible to detect the failure of the detection means, and for example of each of the optoelectronic sensors in case of non-reaction of the light source. Optoelectronic sensor. The present invention aims according to a second aspect a method of protecting an electronic system against arcing.

  This method has characteristics and advantages similar to those described above in connection with the device. According to the invention, the method comprises a step of detecting a light generated by an electric arc, the electric arc being generated by the electronic system.

  Advantageously, the method comprises a step of activating a security system associated with the electronic system, when the light generated by an electric arc is detected. According to a preferred characteristic of the invention, the detection step comprises a step of comparing a value representative of the detected light with a detection threshold value and the activation step of the security system associated with the electronic system is implemented when the representative value of the detected light is greater than the detection threshold value. Thus, it is possible to take into account the light environment in the predetermination of the detection threshold value and thus in the detection of a light generated by the electric arc. Advantageously, the method comprises a step of testing the detection step. In one embodiment, the testing step is performed prior to operation of the electronic system. Thus, the proper functioning of the protection process is checked before the electronic system is put into operation. In another embodiment, the testing step is performed at regular time intervals during the operation of the electronic system. Thus, it is possible to detect a malfunction of the protection process at any time.

  The invention aims according to a third aspect an electronic module comprising a protection device according to the invention, adapted to implement a protection method according to the invention. The invention aims, according to a fourth aspect, an aircraft comprising an electronic module according to the invention. This aircraft and this electronic module have characteristics and advantages to those described above in relation to the device and the detection method. Other features and advantages of the invention will become apparent in the description below. In the accompanying drawings, given as non-limiting examples: FIG. 1 is a diagram illustrating an embodiment of an electronic module according to the invention; and FIG. 2 is a diagram illustrating the operation of an electronic module according to FIG. 1. FIG. 1 illustrates one embodiment of the invention very schematically. A housing 1 contains an electronic system 2 (not shown in detail).

  Electronic systems and in particular electronic power systems (high power) can cause electric arcs 3 during a malfunction or when a fault or fault occurs. The arcs emit a light 3 generally very intense, which spreads instantly in all directions inside the housing 1. These housings can be sealed, or provided with an opening to promote heat exchange with the outside . Typically, the housings are metallic in order to dissipate the heating power generated by the electronic systems. As a result, electronic systems are plunged into complete darkness or semi-darkness.

  Of course, the housings can be constructed of other materials. Light detection means 4 are distributed inside the housing so that the light emitted by the electric arc 3 is detected irrespective of the location of the electric arc 3. These detection means 4 of the light are typically photosensitive sensors, such as optical sensors, in particular optoelectronic sensors. By way of example, an optoelectronic sensor may be a photodiode, a phototransistor, a photoresistor or a photoelectric cell. Optoelectronic sensors convert a physical quantity relative to light into an electrical quantity (for example a voltage). The number of optical sensors 4 distributed in the housing 1 is variable.

  The light 3 emitted by an electric arc 3 is propagated inside the housing 1. The housing being constructed of metallic material, it reflects the light, which is thus propagated in all directions rapidly. Thus, a single optical sensor 4 may be sufficient for the detection of the light 3 emitted by the electric arc 3.

  Advantageously, the protection device may comprise a plurality of optical sensors 4. Thus, the functionality of the protection device is ensured, that is to say that in the case of failure of a sensor 4, there are redundant sensors 4.

  In addition, the speed of response of the protection device is faster. The inner face of the housing can be coated with a light-reflecting treatment to allow the sensor to detect direct or indirect light.

  Thus, it is possible to detect the electric arc 3, including when one of the sensors 4 is down.

  The operation of the protection device according to one embodiment of the present invention will be described with reference to FIG. FIG. 2 represents an electronic module 1 'comprising an electronic system 2 and a protection device 30 according to the invention.

  The electronic system 2 is located inside a housing 1 as described above. Here, the electronic system 2 is an AC / AC (AC / AC) energy converter. This electronic system is an electronic power system.

  Thus, this electronic power system converts the signal from a power supply network 10 into an output signal 11. This output signal 11 supplies other circuits 7 not shown in FIG. power 2 comprises for example an AC / DC energy converter (AC / DC) and a DC / AC energy converter (DC / DC). 6. A network filter 8 is located between the power supply network 10 and the power supply. AC / DC energy converter 5. This filter is for example an EMC (Electromagnetic Compatibility) filter.

  The AC / DC energy converter 5 converts the filtered signal 12 from the power supply network 10 into a continuous signal 13, which is then converted back into AC by the DC / AC power converter 6. A protection device According to the invention is further located inside the housing 1.

  Here, the protection device 30 comprises means 4 for detecting the light 3 generated by an electric arc 3. As described with reference to FIG. 1, the means for detecting the light 3 generated by the electric arc 3 comprise optoelectronic sensors 4.

  Here, these optoelectronic sensors 4 are phototransistors 4, two in number.

  Of course, other types of optical or optoelectronic sensors, as well as other types of sensors capable of detecting light, may be employed. Such a protection device 30 comprises activation means 15 of a security system 14 associated with the electronic system 2. Here, this security system comprises a switch 14 at the input of each component of the electronic system 5, 6, that is to say, at the input of each converter 5, 6. These switches 14 are controlled by activation means 10 15. The activation means 15 are part of a control unit 16. Although Of course, the switches may be located at different locations. For example, a single switch 14 may be located upstream of the network filter 8, or may be located outside the housing 1 of the electronic module 1 '. The protection device 30 further comprises means 17 for testing the integrity of the detection means. These test means 17 comprise light sources 17 located respectively close to each optoelectronic sensor 4. Here, the light sources 17 are two light-emitting diodes 17, corresponding to the number of phototransistors 4. Of course, the number of light sources 17 is variable can be less than the number of sensors 4, a single light source 17 thus serving to verify several sensors 4. We will describe, with reference to Figures 1 and 2 the protection method according to the invention. When an electric arc 3 occurs inside the housing 1 containing the electronic system 2, the light 3 produced by the electric arc 3 propagates inside the housing. It is at this moment, during a detection step, detected by the detection means 4 of the appearance of a light 4.

  This light 3 is detected as soon as it occurs, thus avoiding the rise of the temperature of the housing 1 or the piercing thereof 1 by the electric arc 3. The response time of the detection means 4 is as follows: order of a few milliseconds, thus being less than the response time of the heat detection means used in the prior art, which is of the order of a few seconds. This detection step comprises a step of comparing a value representative of the detected light 3 with a detection threshold value.

  This detection threshold value is set taking into account the light environment. This light environment is different depending on the type of housing 1, hermetic or with an opening. This comparison step is performed using the comparison means 18, which are part of the control unit 16. When the representative value of the light is greater than the detection threshold value, the activation means 15 activate the security system, i.e., the switches 14. Thus, the power supply 10 of the electronic system 2, in particular the supply of the power components 5, 6, is completely extinguished and the arc Electric 3 disappears shortly after its appearance. This protection method also comprises a step of testing the detection step. Here, this test step is performed by means of the light-emitting diodes 17 located near each sensor 4 and controlled by test activation means 19. These test activation means 19 are also part of the test unit. control 16. The test step of the detection means can be implemented at any time.

  Thus, it can be implemented prior to the operation of the electronic system 2, or at regular time intervals, during the operation of the electronic system 2. This test step consists of the activation of the light-emitting diodes 17. It is thus possible to to check whether the optical sensors 4 detect the light emitted by the light-emitting diodes 17. Thanks to the invention, it is possible to detect the electric arcs by means of the detection of the light that they generate and thus, they are detected as soon as they are detected. appearance and not through their consequence.

  Therefore, the response time of a protection device according to the invention is fast, thus avoiding the aforementioned risks of raising the temperature of the housing in which the electronic system is integrated and piercing the housing. Therefore, the security of an electronic system comprising a protection device according to the invention is significantly improved. In addition, since the risks mentioned above are avoided, it is useless to reinforce the housings with a layer of material resistant to temperature, thus avoiding oversizing of these boxes. This lightening of the electronic modules is particularly advantageous when the electronic module is adapted to be integrated in an aircraft. Of course, many modifications can be made to the embodiment described above without departing from the scope of the invention.

In particular, the device and the method according to the invention are applicable to all types of AC / AC, DC / DC, AC / DC or DC / AC energy converters, as well as in energy management systems. to protect the power switching members. Furthermore, the device may comprise other types of sensors, such as for example photodiodes, photocells or photoresistors.

Claims (14)

  1. Protection device (30) of an electronic system (2) against electric arcs (3), characterized in that it comprises means (4) for detecting a light generated by an electric arc (3) said electric arc (3) being generated by said electronic system (2).   2. Protection device (30) according to claim 1, characterized in that it comprises activation means (15) of a security system (17) associated with said electronic system (2), adapted to cooperate with said detection means (4).   3. Protection device (30) according to one of claims 1 or 2, characterized in that it further comprises means for testing (17) the integrity of said detection means (4).   4. Protective device according to one of claims 1 to 3, characterized in that said detection means (4) comprise a single optoelectronic sensor (4).   5. Protection device (30) according to one of claims 1 to 3, characterized in that said detection means (4) comprise a plurality of optoelectronic sensors (4) distributed inside a housing (1) containing said electronic system (2).   6. Protection device (30) according to claim 3, characterized in that the test means (17) comprise a light source (17) located near said detection means (4).   7. A method of protecting an electronic system (2) against electric arcs (3), characterized in that it comprises a step of detecting a light generated by an electric arc (3), said electric arc (3 ) being generated by said electronic system (2).   8. Protection method according to claim 7, characterized in that it comprises a step of activating a security system (14) associated with said electronic system (2), when the light generated by an electric arc (3). ) is detected.   9. Protection method according to claim 8, characterized in that said detection step comprises a step of comparing a value representative of the detected light with a detection threshold value and that said activation step is set when the representative value of the detected light is greater than said detection threshold value.   10. The method of protection according to one of claims 7 to 9, characterized in that it further comprises a step of testing the detection step.   11. The method of protection according to claim 10, characterized in that said testing step is performed prior to the operation of said electronic system (2).   12. The method of protection according to one of claims 10 or 11, characterized in that said testing step is performed at regular time intervals during operation of said electronic system (2).   13. Electronic module (1 '), characterized in that it comprises a protection device (30) according to one of claims 1 to 6 adapted to implement the method of protection according to one of claims 7 at 12.   14. Aircraft, characterized in that it comprises an electronic module (1 ') according to claim 13.